The Role Of EBV And HHV-6 Infection In Demyelinating Disease With A Consideration Of Past UVR Exposure.
Funder
National Health and Medical Research Council
Funding Amount
$305,800.00
Summary
The marked increase in immune disorders over the past fifty years is thought to reflect modern environmental and lifestyle factors, rather than changes in diagnosis. The hypothesis that has the most evidence to support it is the 'hygiene hypothesis'. That is, that a reduction in early life infection among modern children leads to immune system dysfunction and thus an increase in immune disorders. Delayed child infection, particularly of Epstein-Barr Virus has been prospectively linked to multipl ....The marked increase in immune disorders over the past fifty years is thought to reflect modern environmental and lifestyle factors, rather than changes in diagnosis. The hypothesis that has the most evidence to support it is the 'hygiene hypothesis'. That is, that a reduction in early life infection among modern children leads to immune system dysfunction and thus an increase in immune disorders. Delayed child infection, particularly of Epstein-Barr Virus has been prospectively linked to multiple sclerosis (MS) risk. This project aims to document the role of herpes virus (EBV, HHV-6) infection in the onset of first demyelinating events, a precursor to MS. The strength of this proposal is that it lies within an existing study framework - the Ausimmune Study, allowing detailed exploration of related associations with latitude, early life infant contact and past sun exposure. The incidence of MS has doubled from 1.2-100,000 to 2.4-100,000 from 1961 to 1996 in Newcastle, Australia. Although incidence is low, the disease has a median age of first onset of 24 years and progresses to serious disability even with immunomodulatory therapy (50% will need assistance in walking within 13 years) thus the current prevalence of 1 per 1,000 adults in Tasmania and 0.8 per 1,000 in Newcastle represent a serious burden of morbidity.Read moreRead less
Cytokines In Milk Modulate The Development Of Immune Responses In The Infant
Funder
National Health and Medical Research Council
Funding Amount
$188,912.00
Summary
There is substantial epidemiological evidence that formula fed infants are more susceptible than breast fed infants to auto-immune diseases later in life. However direct evidence is lacking and the mechanism is not understood. We aim to provide direct experimental evidence to test the hypothesis that maternal milk regulates infant immune responses by providing the factors that modulates antigen presentation and priming in the neonatal gut. The significance of the study lies in the absence of the ....There is substantial epidemiological evidence that formula fed infants are more susceptible than breast fed infants to auto-immune diseases later in life. However direct evidence is lacking and the mechanism is not understood. We aim to provide direct experimental evidence to test the hypothesis that maternal milk regulates infant immune responses by providing the factors that modulates antigen presentation and priming in the neonatal gut. The significance of the study lies in the absence of these regulatory factors in infant formula. The results will allow more fully informed decisions regarding breast feeding, and may lead to the development of infant formula that modulate immune responses in a manner analogous to natural maternal milk.Read moreRead less
Regulating The Production Of High Affinity Antibody Forming Cells During The Germinal Centre Reaction.
Funder
National Health and Medical Research Council
Funding Amount
$376,980.00
Summary
In response to infection the body makes antibodies. These antibodies are important in helping clear the infection and keeping us healthy. What's more, the immune system 'remembers' these past infections. This means that when we are re-exposed to an infectious agent like measles virus, no disease develops. This is because the antibodies which cleared the infection initially, are still being made and prevent or neutralize the new infection or toxin. The continued production of these antibodies is ....In response to infection the body makes antibodies. These antibodies are important in helping clear the infection and keeping us healthy. What's more, the immune system 'remembers' these past infections. This means that when we are re-exposed to an infectious agent like measles virus, no disease develops. This is because the antibodies which cleared the infection initially, are still being made and prevent or neutralize the new infection or toxin. The continued production of these antibodies is therefore an important part of staying healthy. When we are vaccinated, we produce antibodies specific for the components of the vaccine. Some of these components are part of the real infectious agent. This means that when we encounter the real virus, we already have antibodies that prevent the virus from doing any damage. Booster immunizations are necessary to make sure we have high enough levels of these neutralizing antibodies. Being able to understand how these important antibodies are made is a central goal of this research project. We hope that by understanding how cells are durected in an immune response to become the kind of cells that secretes neutralizing antibodies, we will be able to make vaccines that work more efficiently, that require fewer booster injections and that give longer lasting protection. We also hope that we can better design vaccines so that those that currently don't work, can be made to do so.Read moreRead less
Immune Regulation, Effector Function And Human Therapy
Funder
National Health and Medical Research Council
Funding Amount
$11,474,346.00
Summary
The immune system plays an important role in protecting the host from viral and bacterial infections, and inhibits cancer onset and progression. Immune processes proceed through specialised cells in conjunction with soluble factors such as inteferons and interleukins. These soluble factors can regulate the activities of immune cells, and inhibit the growth and survival of aberrant (virus infected, cancer) cells. Unfortunately, the immune system can sometimes lose specificity and attack the host, ....The immune system plays an important role in protecting the host from viral and bacterial infections, and inhibits cancer onset and progression. Immune processes proceed through specialised cells in conjunction with soluble factors such as inteferons and interleukins. These soluble factors can regulate the activities of immune cells, and inhibit the growth and survival of aberrant (virus infected, cancer) cells. Unfortunately, the immune system can sometimes lose specificity and attack the host, resulting in autoimmune diseases such as diabetes. This research team has played a vital role in characterising the specific activities of immune cells and the associated factors. Importantly, they are deciphering the intricate communication networks of these immune components and dissecting their modes of action. By understanding these complex processes, the team aims to harness the unique therapeutic properties of our own immune system and translate their findings into the clinic. The team is developing new immune-based therapies for use, either alone or in combination with existing chemotherapies to fight debilitating human diseases such as cancer and autoimmune disease.Read moreRead less
Induction Of Natural T-Regulatory Cells By Thymic Dendritic Cell Populations
Funder
National Health and Medical Research Council
Funding Amount
$413,775.00
Summary
In this study, we will determine the roles of the antigen presenting cells, namely denderitic cells, in the induction of T-regulatory cell (T-reg) developemnt in the thymus. T-reg cells play important roles in controlling the development of autoimmunity. This study will help to understand the possible causes of autoimmune diseases and to develop new treatments for these diseases.